DE102004023489A1 - Making a curved measuring tube for a vibration-type transducer - Google Patents

Abstract

For producing the measuring tube, first of all a solid shaped body (2) consisting of a first filler (21) and a second filler (21) stabilizing the cross section of the starting tube (1 ') during bending is formed inside the lumen of the starting tube to be bent (1 ') formed. As filler (21) serves a solidified liquid, esp. Wax, fat or water, which has a melting temperature which is lower than a melting temperature of the output tube (1 '), while as a second filler (22) at least in a normal state in essential free-flowing, in particular granular and / or powdery, loose material, in particular granules, sand or the like, which has a melting temperature which is higher than the melting temperature of the liquid (21) is used. After forming the shaped body (2), the starting pipe (1 ') is bent by introducing a bending force acting at least in sections from outside onto the starting pipe (1'). Subsequently, the shaped body (2) is softened within the lumen of the curved outlet tube (1 '') by allowing the filler (21) formed as a solidified liquid to melt within the curved outlet tube (1 '').

Description

The The invention relates to a method for bending at least one measuring tube a transducer of the vibration type, in particular of a Coriolis mass flow sensor.

sensor vibration type, for example Coriolis mass flow sensor, Coriolis mass flow / density sensor and / or Viscosity / density etc., can be determined by the shape of the measuring tube used in each case or the measuring tubes used in each case essentially in two classes divide, namely sensor with at least one straight measuring tube and those with at least an at least partially arcuate curved measuring tube, wherein the Invention concerned measuring tubes to the latter class. Of the Structure as well as the operation and use of such sensors, the expert in and of himself at the latest are known, for example, in DE-A 43 27 052, the US-B 67 11 958, US-A 53 94 758, US-A 57 96 011, US-A 63 08 580 or WO-A 03 029 761 described in detail.

When have particularly easy to manufacture at sensors of the described type especially such curved measuring tubes, the bent so that theirs respective bending line substantially in a single imaginary Pipe level is, and the bending line seen transversely to the longitudinal axis substantially "open", so free of undercuts is. Such curved Measuring tubes can For example, as in DE-A 43 27 052, US-B 67 11 958, US-A 53 94 758, US-A 57 96 011, US-B 65 91 656 or WO-A 03 029 761, substantially U-, V- or S-shaped or, as also shown in the US-A 63 08 580, substantially trapezoidal or bent in a rectangle be. In particular, measuring tubes curved in a plane are not comparatively easy to manufacture, because they are made as a starting pipe serving tubular Semi-finished goods u.a. also very easy by means of a two-part mold in the desired Shape can be brought. customarily are the output pipes to be bent with a possible Incompressible shaped body which ensures that the shape of the cross-section of the exit tube, usually a corresponding circular cross-section, after bending preferably unchanged has been preserved.

One for the Manufacture of such tubes is very suitable method For example, shown in US-B 65 91 656. This is it specifically a method for press-bending a measuring tube for one Coriolis mass flow sensor in a desired tube shape by means of a substantially straight output tube of predetermined length and by means of a two-part mold, which is connected to the measuring tube and the desired Meßrohrform adapted, in which method in the output tube, a flexible metallic spiral spring inserted and so in a first end of the output tube is attached, that the end is then closed, and of which a maximum outside diameter is smaller than an inner diameter of the exit pipe. Subsequently, will the exit tube with a liquid filled and then completely solidified, creating a massive shaped body in the lumen of the exit tube is formed. Thereafter, the output tube by introducing a at least partially acting on the output tube from the outside Bending force bent. After all become the solidified liquid allowed to melt again and then practically as a support body for the solidified liquid serving spiral spring and the molten liquid from the bent Exit pipe removed. In the method shown, the bending takes place the output tube in a particularly simple manner in that the output tube with the molded body therein in the open Press mold is placed and then the mold for deforming the Output pipe is closed. Another method for bending of such measuring tubes using one of the stabilization serving the starting tube, by means of solidified liquid formed molding is also shown for example in US-A 23 34 661.

The common use of easily meltable liquid together with a This stabilizing support body allows one hand a comparatively simple as well as a highly accurate one Bending of measuring tubes for Sensor of the type described. The high accuracy of this Procedure leaves as discussed, for example, in US-B 65 91 656, et al attributed to that the solidified liquid while as a filler the main contributor to this high accuracy is that however, the supporting body, the yes has a maximum diameter that is smaller than the inside diameter of the measuring tube is a thin layer solidified liquid wearing, which lies between the inner wall of the measuring tube and the supporting body, and that this contributes the remaining portion to high accuracy.

However, it has also been found that although the support body has a maximum diameter which is smaller than the inner diameter of the measuring tube, and thus removal of the support body after bending out of the measuring tube and after the solidified liquid has become liquid again without Furthermore, it is possible that the extraction of the support body occasionally, esp. When compared to the diameter of the measuring tube small bending radii en and / or long arc segments, slight damage to the inner surface of the curved measuring tube, for example by scratching, can cause. In addition, especially in the event that the support body is formed as a metallic spiral spring, occasionally slight marks in the inner surface can be observed. Such damage to the surface usually falls out very slightly and are therefore usually tolerable. However, a variety of applications also require a very smooth, undamaged inner surface of the measuring tube, for example in the food industry with the usually very high hygienic requirements there. In addition, even with very small diameters considerable difficulties in threading the then necessarily also very thin running support body can result in the output tube.

A The object of the invention is therefore the production of measuring tubes of the type described to improve that, esp. while respecting the mentioned Press-bending obtained high accuracy in manufacturing the measuring tube, damage or Violation of the inner surface when using a embedded in solidified liquid support body, esp. even with small bending radii and / or long arc segments, largely can be avoided.

• – Bilden eines aus einem ersten Füllstoff und einem darin eingelagerten zweiten Füllstoff bestehenden, dem Stabilisieren des Querschnitt des Ausgangsrohrs beim Biegen dienenden massiven Formkörpers innerhalb des Lumens des zu biegenden Ausgangsrohrs,
• – Verbiegen des Ausgangsrohrs durch Einleiten einer zumindest abschnittsweise von außen auf das Ausgangsrohr wirkenden Biegekraft sowie
• – Entfestigen des Formkörpers innerhalb des Lumens des gebogenen Ausgangsrohrs,
• – wobei als erster Füllstoff eine erstarrte Flüssigkeit, insb. Wachs, Fett oder Wasser, die eine Schmelztemperatur aufweist, die niedriger ist als eine Schmelztemperatur des Ausgangsrohrs, und als zweiter Füllstoff ein zumindest in einem Normalzustand im wesentlichen als schüttfähiges, insb. körniges und/oder pulvriges, Lockermaterial, insb. Granulat, Sand oder dergleichen, ausgebildetes Material, das eine Schmelztemperatur aufweist, die höher ist als die Schmelztemperatur der Flüssigkeit, dienen, und
• – wobei der Schritt des Entfestigens des Formkörpers innerhalb des Lumens des gebogenen Ausgangsrohrs einen Schritt des Schmelzenlassen von als erstarrte Flüssigkeit ausgebildetem ersten Füllstoff innerhalb des gebogenen Ausgangsrohrs umfaßt.

To achieve the object, the invention consists in a method for producing a curved measuring tube for a transducer of vibration type, esp. A Coriolis Massendurchflußmeßaufnehmer, in a desired shape by means of an output tube of predetermined cross-section and lumen, which method comprises the steps of

• Forming a solid shaped body consisting of a first filler and a second filler incorporated therein, for stabilizing the cross section of the starting tube during bending, within the lumen of the starting tube to be bent,
• - Bending the output tube by introducing an at least partially acting from the outside on the output tube bending force and
• Softening the shaped body within the lumen of the curved starting tube,
• Wherein the first filler is a solidified liquid, in particular wax, fat or water, which has a melting temperature which is lower than a melting temperature of the starting pipe, and as a second filler is at least in a normal state substantially free-flowing, especially granular and / or or powdery, loose material, esp. Granules, sand or the like, formed material having a melting temperature which is higher than the melting temperature of the liquid serve, and
• Wherein the step of softening the shaped body within the lumen of the curved exit tube comprises a step of melting a first filler formed as a solidified liquid within the arcuate exit tube.

• – Einbringen zumindest eines Teils des ersten Füllstoffs inform von geschmolzener Flüssigkeit sowie zumindest eines Teils des zweiten Füllstoff in das Lumen des Ausgangsrohrs und
• – Erstarrenlassen von als geschmolzene Flüssigkeit ausgebildetem ersten Füllstoff innerhalb des Lumens des Ausgangsrohrs.

According to a first embodiment of the invention, the step of forming the shaped body within the lumen of the exit tube comprises the following steps:

• - Introducing at least a portion of the first filler inform molten liquid and at least a portion of the second filler in the lumen of the output tube and
• Solidification of molten liquid formed first filler within the lumen of the exit tube.

To A second embodiment of the invention is used to form the shaped body within the lumen of the exit tube formed as a liquid first filler poured into the outlet pipe.

To A third embodiment of the invention comprises the method further a step of liquid-tight closing at least one end of the exit tube.

To A fourth embodiment of the invention is used as the second filler a currently pourable loose material and includes the step of introducing second filler a step of filling of pourable, esp. granular and / or powdery, loose material in the lumen of the output tube.

To a fifth Embodiment of the invention is the filling of at least one part of the first filler before and / or during of filling of the second filler into the lumen of the exit tube.

To a sixth embodiment of the invention, the filling takes place at least a part of the second filler before and / or during of filling of the first filler into the lumen of the exit tube.

To A seventh embodiment of the invention comprises the method Further, a step of compacting filled second filler within the lumen of the exit tube, esp. By shaking and / or plug.

According to an eighth aspect of the invention, the method further comprises a step of removing molten first filler the lumen of the curved exit tube.

To A ninth embodiment of the invention is used to remove molten first filler from the lumen of the curved exit tube liquid from the bent Outlet outlet pipe calmly.

To A tenth embodiment of the invention comprises the step of Defrosting the molding within the lumen of the curved exit tube, a step of Loosening of the second filler contained in the lumen of the curved exit tube.

To An eleventh embodiment of the invention further comprises the method a step of removing loose, esp. pour or pourable, second filler from the curved outlet pipe.

To a twelfth Embodiment of the invention comprises the step of removing second filler from the bent exit tube, a step of outflow of loose material from the curved exit tube.

To A thirteenth embodiment of the invention becomes the second filler in a relationship to first filler from 9: 1 or above used.

To A fourteenth embodiment of the invention is used as a first filler a liquid used, which at a temperature less than 100 ° C, esp. But at a temperature around 0 ° C, stiffens.

To a fifteenth Embodiment of the invention consists of the second filler at least proportionately from one, in particular spherical Particles having, granules.

To a sixteenth embodiment of the invention is the second filler at least proportionally from a powder.

To A seventeenth aspect of the invention is the second filler at least partially mineral.

To An eighteenth embodiment of the invention is the second filler at least partially organic.

To A nineteenth embodiment of the invention is the second filler at least partially metallic.

To a twentieth embodiment of the invention is the first filler at least partly from water.

To a twenty-first embodiment of the invention consists of first filler at least partly from wax, oil or fat.

• – Einlegen des mit dem Stützkörper bestückten Ausgangsrohrs in die geöffnete Pressform und Positionieren desselben zwischen Stempel und Gesenk,
• – Schließen der Pressform und Verbiegen des Ausgangsrohrs mittels einer Relativbewegung von Stempel und Gesenk gegeneinander.

According to a development of the invention, the method is carried out using a mold having a punch and a die, which is adapted to the desired shape of the measuring tube to be manufactured, wherein the step of bending the output tube by introducing an at least partially acting from the outside to the output tube Bending force comprises the following steps:

• Inserting the starting tube equipped with the support body into the opened mold and positioning it between punch and die,
• - Closing the mold and bending the output tube by means of a relative movement of the punch and die against each other.

• – Öffnen der Pressform nach dem Verbiegen des Ausgangsrohrs und
• – Entnehmen des gebogenen Ausgangsrohrs aus der wieder geöffneten Pressform.

According to one embodiment of this development of the invention, the method comprises the following further steps:

• - Opening the mold after bending the output pipe and
• - Remove the curved outlet tube from the reopened mold.

One The basic idea of the invention is that within the lumen of the to be bent output tube optimally adapted, but also again easily removable molded body by not being able to do so only the liquid but also that the solidified liquid stabilizing during bending filler before and after bending fluid, esp. pourable, formed are while both during The bending form a very strong bond.

One Advantage of the invention is u.a. in that the shaped body formed in situ, although is very solid. Likewise, he can be both light and easy introduced into the output tube as well as from the finished bent Measuring tube light and without danger the inner surface be removed again. Another advantage of the invention is also to see that through that of support the solidified liquid serving filler a shaped body can be created, which also in the use of quite to a considerable extent Flow tending ice as solidified liquid one even while of bending has a very dimensionally stable cross-section.

The invention will now be explained in more detail with reference to the figures of the drawing, is shown in the successive stages of a method according to the invention as an exemplary embodiment. Functionally identical parts are in different figures with the provided with the same reference numerals, but repeated in subsequent figures, only if it makes sense.

1 shows a side view of an output tube to be bent,

2 shows in a side view of the output tube of 1 fluid-tightly closed at one end,

3 shows in a side view of the output tube of 1 into which a filler formed as free-flowing loose material is introduced,

4 shows in a side view of the output tube of 3 in which a further filler formed as a liquid is introduced,

5 shows in a side view of the output tube of 4 , in the lumen of which a massive of the fillers of 3 and 4 existing molding has been formed,

6 shows in a side view from the output tube of 1 produced bent starting pipe, from which the resolidified molded body of 5 by flowing out of the fillers of 3 and 4 Will get removed,

7 shows in a side view schematically an open mold,

8th shows in a side view schematically the open mold of 7 into which a starting pipe according to 5 has been inserted,

9 shows in a side view schematically the closed mold of 8th with an outlet pipe made by closing the same according to FIG 6 , and

10 shows in a side view schematically the open again to remove the curved exit tube mold.

11 a transducer of the vibration type with a serving as a measuring tube curved output pipe according to 6 ,

In the 1 to 5 is in each case in a sectional side view, especially straight, starting tube 1' of predetermined, esp. Circular, cross-section and lumen shown schematically. The exit pipe 1' is intended by suitable introduction of an at least partially acting on the outside bending force in a curved output pipe 1'' to be transformed by specifiable spatial form. The curved outlet pipe 1'' in turn serves later, as well as in 11 shown as a measuring tube 1 a sensor 10 of the vibration type, for example, a Coriolis mass flowmeter.

Before the beginning of the actual deformation process, the output tube 1' For example, be cut off from a pipe bar, not shown, with a desired length L. The length L of the outlet pipe 1' results from the desired length of the bent starting tube after bending 1'' in a simple way. The exit pipe 1' has a given inner diameter d1 and may be made of a material commonly used for measuring tubes of the type described, such as stainless steel, titanium, tantalum, zinc or the like.

To bend the exit tube 1' To prevent unwanted deformation of the cross section as possible, is a stabilizing the cross section serving, the lumen of the output tube 1' essentially filling moldings 2 used, which has been formed before bending directly within the lumen, ie in-situ, but at least finished. The molded body 2 consists of a first filler 21 and a second filler incorporated therein 22 , According to the invention serves as the first filler 21 a solidified liquid, in particular wax, fat or water, which has a melting temperature which is lower than a melting temperature of the starting tube 1' , Furthermore, as a second filler 22 a material used, at least in a normal state as a substantially free-flowing, especially granular and / or powdery, loose material 22 ' is formed, and which has a melting temperature which is higher than the melting temperature of the first filler 21 used liquid. As a filler 22 For example, granules containing sand, in particular gravel, and / or the like, in particular spherical particles, can serve. In this case, the filler 22 made of mineral, organic and / or metallic material. As a result of the use of the molding can 2 thus be formed in a very simple manner that the filler 21 at least partially introduced in a liquid state in the lumen of the starting tube and there after the introduction of a sufficient amount of the second filler 22 is allowed to solidify as completely as possible by appropriate cooling, for example within a suitable freezer or a freezer. The filler 21 and the filler 22 For example, they may be introduced into the lumen simultaneously, sequentially, and alternately. In the latter case can also be a part of the filler 21 used liquid before introducing further portions thereof and / or further portions of the second filler 22 to be frozen. If necessary, the can in the output tube 1' filled, also momen tan as a loose material 22 ' trained filler 22 to increase the strength of the molded article to be produced 2 , For example, by appropriate plugging and / or machine shaking, be further compressed. The for the training of the respective shaped body 2 from the first and second filler 21 . 22 actually required quantities can be easily determined experimentally, taking into account any volume fluctuations associated with the cooling thereof. According to one embodiment of the invention, the second filler 22 in a ratio to the first filler 21 of 9: 1 or above.

To form the molding 2 becomes the starting pipe 1' in the embodiment shown here, first at one end by means of a closure, for example a simple plug 4 , liquid-tight and then placed with the now closed end down and / or hung, see. also 2 ,

Thereafter, according to one embodiment of the method of the invention, on the one hand, the one currently being a molten, in particular low-viscosity, liquid 21 ' trained filler 21 into the lumen of the exit tube 1' and secondly, at least proportionally as free-flowing, in particular granular and / or powdery, loose material 22 ' trained second filler 22 in the lumen of the output tube to be bent 1' brought in. The introduction of the two fillers 21 . 22 can, as in the

3 and 4 indicated, in a simple manner by filling the pourable or pourable materials 21 ' . 22 ' through the upper, not closed end of the erected starting pipe 1' respectively.

According to another embodiment of the method of the invention, at least a portion of the filler 21 together with a part of the liquid used 22 outside the exit pipe 1' prefabricated in advance to at least one solid shaped body core, which only after its completion to form the actual molding 2 into the lumen of the exit tube 1' is inserted. For prefabrication of the shaped body core, a corresponding manner to the lumen of the starting tube 1' adapted, for example, composed of two half-shells, casting mold are used, which after filling with the two starting materials filler 21 and liquid 22 again exposed to a liquid according to the solidifying let ambient temperature.

After the lumen of the exit tube 1' , as in 5 shown schematically, sufficiently with at least partially liquid filler 21 and with filler 22 has been filled, finally, the still liquid filler 21 in the lumen of the output tube 1' stiffened. Subsequently, the output tube 1' deformed by appropriate bending in the desired manner.

To a simple removal of the molding 2 from the lumen of the finally bent exit tube 1'' to enable this, according to the invention already within the lumen of the curved exit tube 1'' largely, esp. Essentially completely, softened, by the fact that a predominant part of the first filler 21 is melted again. As a result, the filler previously embedded therein will likewise be the same 22 again loosened, esp. made pourable or pourable again, whereby the shaped body 2 not only softened, but also made largely flowable.

After liquefying the filler 21 can, as well as in 6 indicated, this as well as the again become loose, esp. again trained as pourable Lockermatertal, filler 22 Thus, in a simple manner by flowing, esp. Pouring or pouring, from the lumen of the now bent starting pipe 1'' be removed. As the first filler 21 In this respect, practically any liquid whose solidification temperature is some 100 ° C. lower than the melting temperature of the material of the starting tube is suitable 1' as well as the material of the filler 21 , Accordingly, metals with a melting point which is lower in this sense, for example bismuth or the wood metal, but also low-viscosity aqueous solutions which solidify at a temperature of less than 100.degree. C., but in particular at a temperature of 0.degree. C., for example Water itself, or organic compounds, such as waxes, oils, fats or the like, as a filler 21 be used. The use of water especially for the production of the molding 2 has the advantage that it is then very easy and equally inexpensive to procure. In addition to its high availability reduces that as a filler 21 In addition, water used to clean the inner surface of the curved outlet tube effort required to a considerable extent.

According to one embodiment of the invention, the output tube 1' by means of a mold 3 to the desired shape of the measuring tube to be manufactured 1 adjusted, bent; a suitable for this embodiment of the invention mold 3 is in 7 to 10 schematically shown in different situations of the method. In the 7 open mold shown 3 includes a shell 31 with a stamp 311 and a lower part 32 with a pendant to the stamp 311 trained die 321 , stamp 311 and die 321 are to the desired shape of the finished bent starting pipe 1'' as well as the outside diameter adjusted. This is in the stamp 311 as well as in the die 321 each formed a groove, wherein the groove of the punch 311 one with a top of the finished curved outlet pipe 1'' substantially corresponding contour and the groove of the die 321 one with a bottom of the finished curved outlet pipe 1'' have substantially corresponding contour. Accordingly, both flutes have a cross section in the shape of a semicircular surface whose diameter is equal to the outer diameter of the output tube 1 is. Thus, the cross-section of the groove of the punch adds 311 if the mold 3 is completely closed, the cross section of the groove of the die 321 to a full circle surface. At the bottom is also a stop 33 for the output pipes to be bent 1' appropriate.

Im in the 7 to 10 embodiment shown are the contours of stamp 311 and die 321 as well as the two flutes formed in such a way that the finished bent starting pipe 1'' is essentially U-shaped or V-shaped curved. In addition, the flutes are stamped 311 and die 321 shaped and aligned with each other, that both an imaginary bending line of the finished bent starting pipe 1'' as well as one of its two ends imaginarily connecting longitudinal axis extending substantially in a common plane.

In this embodiment of the method is used to bend the output tube 1' the same after loading with the support body 2 , as in 8th shown schematically, in the open mold 3 inserted and so between stamp 311 and die 321 positioned. After that, the mold becomes 3 by a suitable relative movement of stamp 321 and die 311 against each other - here by procedures alone of the punch 311 - as far as closed and then kept closed until the output tube 1' has been deformed in the desired manner. In 9 is the closed mold 3 of the 8th with the exit tube bent by closing it 1'' shown accordingly. It can be seen that, as already mentioned, the curved output tube 1'' shorter by bending than the length L of the straight exit tube 1 has become.

In 10 is finally the reopened mold 3 shown schematically, from the curved output tube 1'' is about to be taken. The therein contained, possibly already partially broken by the bending, shaped body 2 is removed, which is indicated by the arrow. The curved exit pipe 1'' can after removal from the mold 3 virtually immediately, esp. Even without costly reworking, as a measuring tube 1 for a sensor 10 be used by the vibration type.

Claims (25)

Method for producing a bent measuring tube ( 1 ) for a transducer of the vibration type, in particular a Coriolis mass flow sensor, into a desired shape by means of an output tube ( 1' ) of prescribable cross section and lumen, which method comprises the steps of: - forming a first filler ( 21 ) and a second filler incorporated therein ( 21 ), stabilizing the cross-section of the exit tube ( 1' ) in bending serving massive shaped body ( 2 ) within the lumen of the starting tube to be bent ( 1' ), - bending the output tube ( 1' ) by introducing an at least partially from the outside to the output tube ( 1' ) acting bending force and - softening of the molding ( 2 ) within the lumen of the curved exit tube ( 1'' ), - being the first filler ( 21 ) a solidified liquid, in particular wax, fat or water, which has a melting temperature which is lower than a melting temperature of the starting tube ( 1' ), and as a second filler ( 22 ) at least in a normal state as substantially free-flowing, esp. Granular and / or powdery, loose material 22 ' formed material having a melting temperature higher than the melting temperature of the liquid ( 21 ), and - wherein the step of softening the shaped body ( 2 ) within the lumen of the curved exit tube ( 1'' ) a step of melting a first filler formed as a solidified liquid ( 21 ) within the curved exit tube ( 1'' ). The method of claim 1, wherein the method of the step of forming the molded article ( 2 ) within the lumen of the exit tube ( 1' ) comprises the following steps: introducing at least part of the first filler ( 21 ) inform of molten liquid ( 21 ' ) and at least part of the second filler ( 22 ) into the lumen of the exit tube ( 1' ) and - solidification of molten liquid ( 21 ' ) formed first filler ( 21 ) within the lumen of the exit tube ( 1' ). Method according to the preceding claim, in which method for forming the shaped body ( 2 ) within the lumen of the exit tube ( 1' ) as a liquid ( 22 ) formed first filler ( 21 ' ) in the output tube ( 1' ) is poured. Method according to one of the preceding claims, further comprising a step of liquid-tight closing of at least one end of the output tube ( 1' ). Method according to one of the preceding claims, - in which as a second filler ( 22 ) a currently pourable loose material is used, and - wherein the step of introducing second filler ( 22 ) a step of filling pourable, in particular granular and / or powdery, loose material in the lumen of the starting tube ( 1' ). The method of claim 5, wherein the filling of at least a portion of the first filler ( 21 ) before and / or during the filling of the second filler ( 22 ) into the lumen of the exit tube ( 1' ) he follows. Method according to claim 5 or 6, wherein the filling of at least a part of the second filler ( 22 ) before and / or during the filling of the first filler ( 21 ) into the lumen of the exit tube ( 1' ) he follows. Method according to one of claims 5 to 7, further comprising a step of compacting filled second filler ( 22 ) within the lumen of the exit tube ( 1' ), in particular by shaking and / or plugging. A method according to any one of the preceding claims, further comprising a step of removing molten first filler ( 21 ' ) from the lumen of the curved exit tube ( 1'' ). A method according to the preceding claim, wherein the method of removing molten first filler ( 21 ' ) from the lumen of the curved exit tube ( 1'' ) Liquid from the curved outlet tube ( 1'' ) is discharged. Method according to one of the preceding claims, wherein the method of the step of unfixing the shaped body ( 2 ) within the lumen of the curved exit tube ( 1'' ) a step of loosening in the lumen of the curved exit tube ( 1'' ) contained second filler ( 22 ). A method according to the preceding claim, further comprising a step of removing loose, especially pourable or pourable, second filler ( 22 ) from the curved exit tube ( 1'' ). A method according to the preceding claim, in which method the step of removing second filler ( 22 ) from the curved exit tube ( 1'' ) a step of pouring loose material out of the curved exit tube ( 1'' ). Method according to one of the preceding claims, in which the second filler ( 22 ) in a ratio to the first filler ( 21 ) of 9: 1 or above is used. Method according to one of the preceding claims, in which as the first filler ( 21 ) a liquid is used which solidifies at a temperature of less than 100 ° C, esp. But at a temperature around 0 ° C, solidifies. Method according to one of the preceding claims, in which the first filler ( 21 ) consists at least proportionally of water. Method according to one of the preceding claims, in which the first filler ( 21 ) consists at least partly of wax, oil or fat. Method according to one of the preceding claims, in which the second filler ( 22 ) consists at least proportionally of a, in particular. Spherical particles exhibiting, granules. Method according to one of the preceding claims, in which the second filler ( 22 ) consists at least proportionally of a powder. Method according to one of the preceding claims, in which the second filler ( 22 ) is at least partially mineral. Method according to one of the preceding claims, in which the second filler ( 22 ) is at least partially organic. Method according to one of the preceding claims, in which the second filler ( 22 ) is at least partially metallic Method according to one of the preceding claims, carried out using a stamp ( 311 ) and a die ( 321 ) having a mold ( 3 ) to the desired shape of the measuring tube to be manufactured ( 1 ), in which method the step of bending the exit tube ( 1' ) by introducing an at least partially from the outside acting on the output tube bending force comprises the following steps: - Inserting the with the supporting body ( 2 ) equipped starting pipe ( 1' ) in the open mold ( 3 ) and positioning it between punches ( 311 ) and die ( 321 ), - closing the mold ( 3 ) and bending the output tube ( 1' ) by means of a relative movement of stamp ( 311 ) and die ( 321 ) against each other. Method according to the preceding claim, comprising the following further steps: - Opening the mold ( 3 ) after bending the exit tube ( 1' ) and - removing the curved outlet tube ( 1'' ) from the reopened mold ( 3 ). Use of the bent starting tube produced by the method according to one of the preceding claims ( 1'' ) as a measuring tube ( 1 ) of a sensor ( 10 ) of vibration type, esp. A Coriolis Massendurchflußmeßaufnehmer.